The invention relates to a working station, in particular to a deep-drawing station, to a molding station, to a sealing station, to a cutting station or to a punching station, for a packaging machine, comprising a rack supported on the ground; a work unit comprising an upper part and a lower part; and a lifting mechanism which is carried by the rack and by which the lower part of the work unit can be raised and lowered relative to the rack to perform a lower stroke, wherein the lifting mechanism has a drive that comprises at least one shaft extending in a transverse direction; a drive motor engaging at the shaft for rotating the shaft; and at least one gear which is coupled at an input side to the shaft, at which the lower part is supported at an output side, and which converts a rotation of the shaft into the lower stroke of the lower part.

The invention relates to a working station, in particular to a deep-drawing station, to a molding station, to a sealing station, to a cutting station or to a punching station, for a packaging machine, comprising a rack supported on the ground; a work unit comprising an upper part and a lower part; and a lifting mechanism which is carried by the rack and by which the lower part of the work unit can be raised and lowered relative to the rack to perform a lower stroke, wherein the lifting mechanism has a drive that comprises at least one shaft extending in a transverse direction; a drive motor engaging at the shaft for rotating the shaft; and at least one gear which is coupled at an input side to the shaft, at which the lower part is supported at an output side, and which converts a rotation of the shaft into the lower stroke of the lower part.

A method for operating a sealing station of a packaging machine, wherein the method may include one or more of the following steps: filling a packing volume of a package with a gas to create a desired atmosphere to a preset gassing target pressure for a finished package, wherein the packaging volume may be defined by a lower and an upper packaging material; discharging a partial amount of the gas introduced into the packaging volume from the packaging volume into a collection volume while retaining the packaging volume generated by the preceding filling, which reduces the pressure within the packaging volume; and reducing the packaging volume by moving the upper packaging material to an end position that corresponds to a desired appearance such that the pressure inside the package increases again to near the gassing target pressure. A sealing station that performs this method is also described.

The disclosure relates to a deep-drawing packaging machine with a forming station for deep-drawing trays into a film, a loading stretch for filling products into the trays, and a sealing station for sealing the trays. The deep-drawing packaging machine further comprises at least one vacuum cooling station which is disposed in a direction of transport upstream of the sealing station and which is formed for vacuum cooling the products placed into the trays along the loading stretch. The disclosure furthermore relates to a method for vacuum cooling products.

The disclosure relates to a deep-drawing packaging machine with a forming station for deep-drawing trays into a film, a loading stretch for filling products into the trays, and a sealing station for sealing the trays. The deep-drawing packaging machine further comprises at least one vacuum cooling station which is disposed in a direction of transport upstream of the sealing station and which is formed for vacuum cooling the products placed into the trays along the loading stretch. The disclosure furthermore relates to a method for vacuum cooling products.

Apparatus and method for separating product containing pouches from a travelling web of adhered films carried on a film support surface includes a rotary blade drum assembly having blade configurations with blade portions arranged to form the entire perimeter edge of the flange of the pouch which rotate in synchronous registration with grooves in the film support surface. In one form, at least one blade portion and associated groove portion are non-linear and other than longitudinal or transverse to the film support surface of the forming drum or travelling web of films. The blade portions may be heated and the rotary blade drum assembly may include insulating guides for the pouches.

Apparatus and method for separating product containing pouches from a travelling web of adhered films carried on a film support surface includes a rotary blade drum assembly having blade configurations with blade portions arranged to form the entire perimeter edge of the flange of the pouch which rotate in synchronous registration with grooves in the film support surface. In one form, at least one blade portion and associated groove portion are non-linear and other than longitudinal or transverse to the film support surface of the forming drum or travelling web of films. The blade portions may be heated and the rotary blade drum assembly may include insulating guides for the pouches.

A thermoform packaging machine comprising a forming station, a sealing station, and a cutting station for separating sealed packaging troughs from one another. The cutting station may comprise at least one cutting unit which is adapted to be positioned within the cutting station at different positions in the production direction. The cutting station may comprise a support that supports bottoms of the sealed packaging troughs conveyed into the cutting station for the purpose of separation from below. The support may comprise a plurality of support elements arranged in a horizontal bearing plane and which form a gap at a position in the support at which a cutting operation takes place according to the position of the cutting unit. The gap may be repositioned by moving the support elements to different positions to position the gap to accommodate a different position of the cutting unit within the cutting station.

A thermoform packaging machine comprising a forming station, a sealing station, and a cutting station for separating sealed packaging troughs from one another. The cutting station may comprise at least one cutting unit which is adapted to be positioned within the cutting station at different positions in the production direction. The cutting station may comprise a support that supports bottoms of the sealed packaging troughs conveyed into the cutting station for the purpose of separation from below. The support may comprise a plurality of support elements arranged in a horizontal bearing plane and which form a gap at a position in the support at which a cutting operation takes place according to the position of the cutting unit. The gap may be repositioned by moving the support elements to different positions to position the gap to accommodate a different position of the cutting unit within the cutting station.

According to one embodiment a packaging machine and method for packaging a product is provided in which a cover film is arranged on the product and on a base film which supports the product and is narrower than the cover film; the superimposed films are moved in a first direction to a joining station where both films are attached to one another; and the attached films are moved in the first direction to a cutting station where the films are cut transversely and where the areas of the cover film projecting from the base film are cut longitudinally. The movement of the films is caused by acting on the cover film.